In his lifetime, Charles Darwin was roundly mocked for suggesting that humans were descended from apes, and even in our own day, the teaching of evolution remains controversial. But in the century and a half since the publication of On the Origin of Species, our increasingly sophisticated understanding of genetics has borne out Darwin’s theory: humans share 99% of their genes with chimps (and many even with grapes!).

99% Ape offers an accessible, straightforward introduction to evolution, beginning with Darwin’s discoveries and continuing through the latest genetic discoveries. Edited by Jonathan Silvertown, the volume brings together experts in a variety of fields pertinent to evolution, from paleobiology to planetary science, comparative anatomy to zoology, and even—for a discussion of legal battles surrounding the teaching of evolution—law. Interwoven with these varied accounts of evolution and its impact are vignettes from Darwin’s life that illustrate the continuity of thought that links Darwin’s work to today’s cutting-edge research.

Beautifully illustrated, 99% Ape is a perfect companion to the upcoming celebration of Darwin’s bicentennial and a bracing reminder of the important role evolution still has to play in our understanding of our origins—and our possible futures.

Although Alfred Russel Wallace (1823–1913) was one of the most famous scientists in the world at the time of his death at the age of ninety, today he is known to many as a kind of “almost-Darwin,” a secondary figure relegated to the footnotes of Darwin’s prodigious insights. But this diminution could hardly be less justified. Research into the life of this brilliant naturalist and social critic continues to produce new insights into his significance to history and his role in helping to shape modern thought.

Wallace declared his eight years of exploration in southeast Asia to be “the central and controlling incident” of his life. As 2019 marks one hundred and fifty years since the publication of The Malay Archipelago, Wallace’s canonical work chronicling his epic voyage, this collaborative book gathers an interdisciplinary array of writers to celebrate Wallace’s remarkable life and diverse scholarly accomplishments. Wallace left school at the age of fourteen and was largely self-taught, a voracious curiosity and appetite for learning sustaining him throughout his long life. After years as a surveyor and builder, in 1848 he left Britain to become a professional natural history collector in the Amazon, where he spent four years. Then, in 1854, he departed for the Malay Archipelago. It was on this voyage that he constructed a theory of natural selection similar to the one Charles Darwin was developing, and the two copublished papers on the subject in 1858, some sixteen months before the release of Darwin’s On the Origin of Species.

But as the contributors to the Companion show, this much-discussed parallel evolution in thought was only one epoch in an extraordinary intellectual life. When Wallace returned to Britain in 1862, he commenced a career of writing on a huge range of subjects extending from evolutionary studies and biogeography to spiritualism and socialism. An Alfred Russel Wallace Companion provides something of a necessary reexamination of the full breadth of Wallace’s thought—an attempt to describe not only the history and present state of our understanding of his work, but also its implications for the future.

Over the course of human history, the sciences, and biology in particular, have often been manipulated to cause immense human suffering. For example, biology has been used to justify eugenic programs, forced sterilization, human experimentation, and death camps—all in an attempt to support notions of racial superiority. By investigating the past, the contributors to Biology and Ideology from Descartes to Dawkins hope to better prepare us to discern ideological abuse of science when it occurs in the future.

Denis R. Alexander and Ronald L. Numbers bring together fourteen experts to examine the varied ways science has been used and abused for nonscientific purposes from the fifteenth century to the present day. Featuring an essay on eugenics from Edward J. Larson and an examination of the progress of evolution by Michael J. Ruse, Biology and Ideology examines uses both benign and sinister, ultimately reminding us that ideological extrapolation continues today. An accessible survey, this collection will enlighten historians of science, their students, practicing scientists, and anyone interested in the relationship between science and culture.

Life on earth is characterized by three striking phenomena that demand explanation: adaptation—the marvelous fit between organism and environment; diversity—the great variety of organisms; and complexity—the enormous intricacy of their internal structure. Natural selection explains adaptation. But what explains diversity and complexity? Daniel W. McShea and Robert N. Brandon argue that there exists in evolution a spontaneous tendency toward increased diversity and complexity, one that acts whether natural selection is present or not. They call this tendency a biological law—the Zero-Force Evolutionary Law, or ZFEL. This law unifies the principles and data of biology under a single framework and invites a reconceptualization of the field of the same sort that Newton’s First Law brought to physics.

Biology’s First Law shows how the ZFEL can be applied to the study of diversity and complexity and examines its wider implications for biology. Intended for evolutionary biologists, paleontologists, and other scientists studying complex systems, and written in a concise and engaging format that speaks to students and interdisciplinary practitioners alike, this book will also find an appreciative audience in the philosophy of science.

We think of medical science and doctors as focused on treating conditions—whether it’s a cough or an aching back. But the sicknesses and complaints that cause us to seek medical attention actually have deeper origins than the superficial germs and behaviors we regularly fault. In fact, as Jeremy Taylor shows in Body by Darwin, we can trace the roots of many medical conditions through our evolutionary history, revealing what has made us susceptible to certain illnesses and ailments over time and how we can use that knowledge to help us treat or prevent problems in the future.

In Body by Darwin, Taylor examines the evolutionary origins of some of our most common and serious health issues. To begin, he looks at the hygiene hypothesis, which argues that our obsession with anti-bacterial cleanliness, particularly at a young age, may be making us more vulnerable to autoimmune and allergic diseases. He also discusses diseases of the eye, the medical consequences of bipedalism as they relate to all those aches and pains in our backs and knees, the rise of Alzheimer’s disease, and how cancers become so malignant that they kill us despite the toxic chemotherapy we throw at them. Taylor explains why it helps to think about heart disease in relation to the demands of an ever-growing, dense, muscular pump that requires increasing amounts of nutrients, and he discusses how walking upright and giving birth to ever larger babies led to a problematic compromise in the design of the female spine and pelvis. Throughout, he not only explores the impact of evolution on human form and function, but he integrates science with stories from actual patients and doctors, closely examining the implications for our health.

As Taylor shows, evolutionary medicine allows us think about the human body and its adaptations in a completely new and productive way. By exploring how our body’s performance is shaped by its past, Body by Darwin draws powerful connections between our ancient human history and the future of potential medical advances that can harness this knowledge.

By studying evolution across geological time, paleontologists gain a perspective that sometimes complements and sometimes conflicts with views based solely on studies of extant species. The contributors to Causes of Evolution consider whether factors exerting major influences on evolution are biotic or abiotic, intrinsic or extrinsic.

Causes of Evolution presents a broad sampling of paleontological research programs encompassing vertebrates, invertebrates, and vascular plants; empirical work and theoretical models; organisms ranging in age from Cambrian to Recent; and temporal scales from ecological time to hundreds of millions of years. The diverse array of research styles and opinions presented will acquaint scientists in related fields with the strengths and weaknesses of paleontology as an approach to evolutionary studies and will give evolutionary biologists of every stripe new bases for evaluating the scope and bias of their own work.

Humans, however much we would care to think otherwise, do not represent the fated pinnacle of ape evolution. The diversity of life, from single-celled organisms to multicellular animals and plants, is the result of a long, complex, and highly chancy history. But how profoundly has chance shaped life on earth? And what, precisely, do we mean by chance? Bringing together biologists, philosophers of science, and historians of science, Chance in Evolution is the first book to untangle the far-reaching effects of chance, contingency, and randomness on the evolution of life.

The book begins by placing chance in historical context, starting with the ancients and moving through Darwin and his contemporaries, documenting how the understanding of chance changed as Darwin’s theory of evolution by natural selection developed into the modern synthesis, and how the acceptance of chance in Darwinian theory affected theological resistance to it. Subsequent chapters detail the role of chance in contemporary evolutionary theory—in particular, in connection with the concepts of genetic drift, mutation, and parallel evolution—as well as recent empirical work in the experimental evolution of microbes and in paleobiology. By engaging in collaboration across biology, history, philosophy, and theology, this book offers a comprehensive and synthetic overview both of the history of chance in evolution and of our current best understanding of the impact of chance on life on earth.

In the race to feed the world’s seven billion people, we are at a standstill. Over the past century, we have developed increasingly potent and sophisticated pesticides, yet in 2014, the average percentage of U.S. crops lost to agricultural pests was no less than in 1944. To use a metaphor the field of evolutionary biology borrowed from Alice in Wonderland, farmers must run ever faster to stay in the same place—i.e., produce the same yields.

With Chasing the Red Queen, Andy Dyer offers the first book to apply the Red Queen Hypothesis to agriculture. He illustrates that when selection pressure increases, species evolve in response, creating a never-ending, perpetually-escalating competition between predator (us) and prey (bugs and weeds). The result is farmers are caught in a vicious cycle of chemical dependence, stuck using increasingly dangerous and expensive toxics to beat back progressively resistant pests.

To break the cycle, we must learn the science behind it. Dyer examines one of the world’s most pressing problems as a biological case study. He presents key concepts, from Darwin’s principles of natural selection to genetic variation and adaptive phenotypes. Understanding the fundamentals of ecology and biology is the first step to “playing the Red Queen,” and escaping her unwinnable race. The book’s novel frame will help students, researchers, and policy-makers alike apply that knowledge to the critical task of achieving food security.

Comparison is fundamental to evolutionary anthropology. When scientists study chimpanzee cognition, for example, they compare chimp performance on cognitive tasks to the performance of human children on the same tasks. And when new fossils are found, such as those of the tiny humans of Flores, scientists compare these remains to other fossils and contemporary humans. Comparison provides a way to draw general inferences about the evolution of traits and therefore has long been the cornerstone of efforts to understand biological and cultural diversity. Individual studies of fossilized remains, living species, or human populations are the essential units of analysis in a comparative study; bringing these elements into a broader comparative framework allows the puzzle pieces to fall into place, creating a means of testing adaptive hypotheses and generating new ones.

With this book, Charles L. Nunn intends to ensure that evolutionary anthropologists and organismal biologists have the tools to realize the potential of comparative research. Nunn provides a wide-ranging investigation of the comparative foundations of evolutionary anthropology in past and present research, including studies of animal behavior, biodiversity, linguistic evolution, allometry, and cross-cultural variation. He also points the way to the future, exploring the new phylogeny-based comparative approaches and offering a how-to manual for scientists who wish to incorporate these new methods into their research.

The reaction to Darwin's Origin of Species varied in many countries according to the roles played by national scientific institutions and traditions and the attitudes of religious and political groups. The contributors to this volume, including M. J. S. Hodge, David Hull, and Roberto Moreno, gathered in 1972 at an international conference on the comparative reception of Darwinism. Their essays look at early pro- and anti-Darwinism arguments, and three additional comparative essays and appendices add a larger perspective. For this paperback edition, Thomas F. Glick has added a new preface commenting on recent research.

Leading biologists and philosophers of biology discuss the basic theories and concepts of biology and their connections with ethics, economics, and psychology, providing a remarkably unified report on the “state of the art” in the philosophy of biology.

The intricate forms of living things bespeak design, and thus a creator: nearly 150 years after Darwin's theory of natural selection called this argument into question, we still speak of life in terms of design--the function of the eye, the purpose of the webbed foot, the design of the fins. Why is the "argument from design" so tenacious, and does Darwinism--itself still evolving after all these years--necessarily undo it?

The definitive work on these contentious questions, Darwin and Design surveys the argument from design from its introduction by the Greeks, through the coming of Darwinism, down to the present day. In clear, non-technical language Michael Ruse, a well-known authority on the history and philosophy of Darwinism, offers a full and fair assessment of the status of the argument from design in light of both the advances of modern evolutionary biology and the thinking of today's philosophers--with special attention given to the supporters and critics of "intelligent design."

The first comprehensive history and exposition of Western thought about design in the natural world, this important work suggests directions for our thinking as we move into the twenty-first century. A thoroughgoing guide to a perennially controversial issue, the book makes its own substantial contribution to the ongoing debate about the relationship between science and religion, and between evolution and its religious critics.

Table of Contents:

Preface Introduction

1. Two Thousand Years of Design 2. Paley and Kant Fight Back 3. Sowing the Seeds of Evolution 4. A Plurality of Problems 5. Charles Darwin 6. A Subject Too Profound 7. Darwinian against Darwinian 8. The Century of Evolutionism 9. Adaptation in Action 10. Theory and Test 11. Formalism Redux 12. From Function to Design 13. Design as Metaphor 14. Natural Theology Evolves 15. Turning Back the Clock

Reviews of this book: Ruse examines the concept of 'design' in nature, explaining why it still remains a strong influence despite the scientific revolution, and historically, how it dominated Western thought from ancient Greece (Plato) to the advent and predominance of Christianity...A rich and compelling book.--J. S. Schwartz, Choice

Reviews of this book: Anyone who is interested in the 'science wars' controversy or the history of evolutionary thought will find this book fascinating and rewarding. The prose is masterfill--relaxed, colloquial, rich in information, and suffused with flashes of malicious wit and delicious historical tidbits.--Matt Cartmill, Reports of the National Center for Science Education

Reviews of this book: To anyone interested in the evolution of evolution, I recommend this book.--John Tyler Bonner, Natural History

Reviews of this book: This has to be the best of Ruse's many books, and it is hard to imagine how a better one could be written on this subject. With an understanding erudition spiced with good-natured wit and occasional sly ribaldry, Ruse moves easily and assuredly among biology, philosophy, history, and theology.--Robert T. Pennock, Science

Reviews of this book: Michael Ruse's latest book, Darwin and Design, is an intellectual history of the design argument and its Darwinian solution...His story is a fascinating one, enlivened especially by his accounts of various imaginative attempts before Darwin to solve the design problem without recourse to a deity.--Daniel W. McShea, American Scientist

The ideas and terminology of Darwinism are so pervasive these days that it seems impossible to avoid them, let alone imagine a world without them. But in this remarkable rethinking of scientific history, Peter J. Bowler does just that. He asks: What if Charles Darwin had not returned from the voyage of the Beagle and thus did not write On the Origin of Species? Would someone else, such as Alfred Russel Wallace, have published the selection theory and initiated a similar transformation? Or would the absence of Darwin’s book have led to a different sequence of events, in which biology developed along a track that did not precipitate a great debate about the impact of evolutionism? Would there have been anything equivalent to social Darwinism, and if so would the alternatives have been less pernicious and misappropriated?

In Darwin Deleted, Bowler argues that no one else, not even Wallace, was in a position to duplicate Darwin’s complete theory of evolution by natural selection. Evolutionary biology would almost certainly have emerged, but through alternative theories, which were frequently promoted by scientists, religious thinkers, and moralists who feared the implications of natural selection. Because non-Darwinian elements of evolutionism flourished for a time in the real world, it is possible to plausibly imagine how they might have developed, particularly if the theory of natural selection had not emerged until decades after the acceptance of the basic idea of evolution. Bowler’s unique approach enables him to clearly explain the non-Darwinian tradition—and in doing so, he reveals how the reception of Darwinism was historically contingent. By taking Darwin out of the equation, Bowler is able to fully elucidate the ideas of other scientists, such as Richard Owen and Thomas Huxley, whose work has often been misunderstood because of their distinctive responses to Darwin.

Darwin Deleted boldly offers a new vision of scientific history. It is one where the sequence of discovery and development would have been very different and would have led to an alternative understanding of the relationship between evolution, heredity, and the environment—and, most significantly, a less contentious relationship between science and religion. Far from mere speculation, this fascinating and compelling book forces us to reexamine the preconceptions that underlie many of the current controversies about the impact of evolutionism. It shows how contingent circumstances surrounding the publication of On the Origin of Species polarized attitudes in ways that still shape the conversation today.

Originally published in 1979, The Darwinian Revolution was the first comprehensive and readable synthesis of the history of evolutionary thought. Though the years since have seen an enormous flowering of research on Darwin and other nineteenth-century scientists concerned with evolution, as well as the larger social and cultural responses to their work, The Darwinian Revolution remains remarkably current and stimulating.

For this edition Michael Ruse has written a new afterword that takes into account the research published since his book's first appearance.

"It is difficult to believe that yet another book on Darwin and the Darwinian Revolution could add anything new or contain any surprises. Ruse's book is an exception on all counts. Darwin scholars and the general reader alike can learn from it."—David L. Hull, Nature

"No other account of the Darwinian Revolution provides so detailed and sympathetic an account of the framework within which the scientific debates took place."—Peter J. Bowler, Canadian Journal of History

Two species come to mind when one thinks of the Galapagos Islands—the giant tortoises and Darwin’s fabled finches. While not as immediately captivating as the tortoises, these little brown songbirds and their beaks have become one of the most familiar and charismatic research systems in biology, providing generations of natural historians and scientists a lens through which to view the evolutionary process and its role in morphological differentiation.

In Darwin’s Finches, Kathleen Donohue excerpts and collects the most illuminating and scientifically significant writings on the finches of the Galapagos to teach the fundamental principles of evolutionary theory and to provide a historical record of scientific debate. Beginning with fragments of Darwin’s Galapagos field notes and subsequent correspondence, and moving through the writings of such famed field biologists as David Lack and Peter and Rosemary Grant, the collection demonstrates how scientific processes have changed over time, how different branches of biology relate to one another, and how they all relate to evolution. As Donohue notes, practicing science today is like entering a conversation that has been in progress for a long, long time. Her book provides the history of that conversation and an invitation to join in. Students of both evolutionary biology and history of science will appreciate this compilation of historical and contemporary readings and will especially value Donohue’s enlightening commentary.

We all know about the birds and the bees, but what about the ancient placoderm fishes and the dinosaurs? The history of sex is as old as life itself—and as complicated and mysterious. And despite centuries of study there is always more to know. In 2008, paleontologist John A. Long and a team of researchers revealed their discovery of a placoderm fish fossil, known as “the mother fish,” which at 380 million years old revealed the oldest vertebrate embryo—the earliest known example of internal fertilization. As Long explains, this find led to the reexamination of countless fish fossils and the discovery of previously undetected embryos. As a result, placoderms are now considered to be the first species to have had intimate sexual reproduction or sex as we know it—sort of.

Inspired by this incredible find, Long began a quest to uncover the paleontological and evolutionary history of copulation and insemination. In The Dawn of the Deed, he takes readers on an entertaining and lively tour through the sex lives of ancient fish and exposes the unusual mating habits of arthropods, tortoises, and even a well-endowed (16.5 inches!) Argentine Duck. Long discusses these significant discoveries alongside what we know about reproductive biology and evolutionary theory, using the fossil record to provide a provocative account of prehistoric sex. The Dawn of the Deed also explores fascinating revelations about animal reproduction, from homosexual penguins to monogamous seahorses to the difficulties of dinosaur romance and how sexual organs in ancient shark-like fishes actually relate to our own sexual anatomy.

The Dawn of the Deed is Long’s own story of what it’s like to be a part of a discovery that rewrites evolutionary history as well as an absolutely rollicking guide to sex throughout the ages in the animal kingdom. It’s natural history with a naughty wink.

Charles Darwin is easily the most famous scientist of the modern age, and his theory of evolution is constantly referenced in many contexts by scientists and nonscientists alike. And yet, despite how frequently his ideas are evoked, there remains a surprising amount we don’t know about the father of modern evolutionary thinking, his intellectual roots, and the science he produced. Debating Darwin seeks to change that, bringing together two leading Darwin scholars—Robert J. Richards and Michael Ruse—to engage in a spirited and insightful dialogue, offering their interpretations of Darwin and their critiques of each other’s thinking.
Examining key disagreements about Darwin that continue to confound even committed Darwinists, Richards and Ruse offer divergent views on the origins and nature of Darwin and his ideas. Ruse argues that Darwin was quintessentially British and that the roots of his thought can be traced back to the eighteenth century, particularly to the Industrial Revolution and thinkers such as Adam Smith and Thomas Robert Malthus. Ruse argues that when these influences are appreciated, we can see how Darwin’s work in biology is an extension of their theories. In contrast, Richards presents Darwin as a more cosmopolitan, self-educated man, influenced as much by French and particularly German thinkers. Above all, argues Richards, it was Alexander von Humboldt who both inspired Darwin and gave him the conceptual tools that he needed to find and formulate his evolutionary hypotheses. Together, the authors show how the reverberations of the contrasting views on Darwin’s influences can be felt in theories about the nature of natural selection, the role of metaphor in science, and the place of God in Darwin’s thought.
Revealing how much there still is to investigate and interrogate about Darwin’s ideas, Debating Darwin contributes to our understanding of evolution itself. The book concludes with a jointly authored chapter that brings this debate into the present, focusing on human evolution, consciousness, religion, and morality. This will be powerful, essential reading for anyone seeking a comprehensive understanding of modern-day evolutionary science and philosophy.

In Diatoms to Dinosaurs, Chris McGowan takes the reader on a fascinating journey through the natural world, and examines life in all its various forms. He imparts the excitement of discovery and the joy of understanding as he demonstrates the central importance of size and scale to the survival of living organisms.McGowan investigates a wide range of size-related phenomena, from the gliding mechanism of diatoms to blood pressure problems of dinosaurs. Questions asked -- and answered -- include: Will we ever see giant insects the size of pterodactyls? Why are ants so much stronger relative to body size than elephants? What do a clam, a condor, a tortoise, and a sturgeon have in common? How did the skeleton of a 28-ton Apatosaurus support its weight? How can blood get from the heart to the head of a giraffe without rupturing blood vessels? The author explicates the scientific concepts -- both physical and biological -- needed to inform the relevant phenomena: area/volume relations, metabolism and other basic physiology, kinetic energy, inertial forces, the biology of senescence, boundary layers, and Reynolds numbers. Numerous illustrations scattered throughout the text make the biophysical principles easily comprehensible to readers, regardless of their scientific sophistication.

In this passionate, lucid, and surprising book, Timothy Morton argues that all forms of life are connected in a vast, entangling mesh. This interconnectedness penetrates all dimensions of life. No being, construct, or object can exist independently from the ecological entanglement, Morton contends, nor does “Nature” exist as an entity separate from the uglier or more synthetic elements of life.

According to polling data, most Americans doubt that evolution is a real phenomenon. And it’s no wonder that so many are skeptical: many of today’s biology courses and textbooks dwell on the mechanisms of evolution—natural selection, genetic drift, and gene flow—but say little about the evidence that evolution happens at all. How do we know that species change? Has there really been enough time for evolution to operate?

With The Evidence for Evolution, Alan R. Rogers provides an elegant, straightforward text that details the evidence for evolution. Rogers covers different levels of evolution, from within-species changes, which are much less challenging to see and believe, to much larger ones, say, from fish to amphibian, or from land mammal to whale. For each case, he supplies numerous lines of evidence to illustrate the changes, including fossils, DNA, and radioactive isotopes. His comprehensive treatment stresses recent advances in knowledge but also recounts the give and take between skeptical scientists who first asked “how can we be sure” and then marshaled scientific evidence to attain certainty. The Evidence for Evolution is a valuable addition to the literature on evolution and will be essential to introductory courses in the life sciences.

From the Scopes “Monkey Trial” of 1925 to the court ruling against the Dover Area School Board’s proposed intelligent design curriculum in 2005, few scientific topics have engendered as much controversy—or grabbed as many headlines—as evolution. And since the debate shows no signs of abating, there is perhaps no better time to step back and ask: What is evolution? Defined as the gradual process by which something changes into a different and usually more complex and efficient form, evolution explains the formation of the universe, the nature of viruses, and the emergence of humans. A first-rate summary of the actual science of evolution, this Scientific American reader is a timely collection that gives readers an opportunity to consider evolution’s impact in various settings.

Divided into four sections that consider the evolution of the universe, cells, dinosaurs, and humans, Evolution brings together more than thirty articles written by some of the world’s most respected evolutionary scientists. As tour guides through the genesis of the universe and complex cells, P. James E. Peebles examines the evidence in support of an expanding cosmos, while Christian de Duve discusses the birth of eukaryotes. In an article that anticipated his book Full House, Stephen Jay Gould argues that chance and contingency are as important as natural selection for evolutionary change. And Ian Tatersall makes two fascinating contributions, submitting his view that the schematic of human evolution looks less like a ladder and more like a bush.

With the latest on what’s being researched at every level of evolutionary studies, from prospects of life on other planets to the inner working of cells, Evolution offers general readers an opportunity to update their knowledge on this hot topic while giving students an introduction to the problems and methodologies of an entire field of inquiry.

"I'm an evolutionary biologist and a Christian," states Stanford professor Joan Roughgarden at the outset of her groundbreaking new book, Evolution and Christian Faith: Reflections of an Evolutionary Biologist. From that perspective, she offers an elegant, deeply satisfying reconciliation of the theory of evolution and the wisdom of the Bible.

Perhaps only someone with Roughgarden's unique academic standing could examine so well controversial issues such as the teaching of intelligent design in public schools, or the potential flaws in Darwin's theory of evolution. Certainly Roughgarden is uniquely suited to reference both the minutiae of scientific processes and the implication of Biblical verses. Whether the topic is mutation rates and lizards or the hidden meanings behind St. Paul's letters, Evolution and Christian Faith distils complex arguments into everyday understanding. Roughgarden has scoured the Bible and scanned the natural world, finding examples time and again, not of conflict, but of harmony.

The result is an accessible and intelligent context for a Christian vision of the world that embraces science. In the ongoing debates over creationism and evolution, Evolution and Christian Faith will be seen as a work of major significance, written for contemporary readers who wonder how-or if-they can embrace scientific advances while maintaining their traditional values.

Scientists discover more every day about how life developed on Earth. Details that stream in from the new field of molecular biology rival the ongoing findings of paleontologists as they fill in the missing pieces in the fossil record. Professors Stephens and Meldrum, aided by the perspective of a non-scientist, Forrest B. Peterson, review the data for a general Latter-day Saint audience.

Their approach comes from a position of faith. They quote from the Creation account in the Pearl of Great Price: ”And the Gods said: Let us prepare the waters to bring forth abundantly the moving creatures that have life. And the Gods saw that they would be obeyed and that their plan was good.” In the authors’ view, the passage’s emphasis on process over end result is consistent with modern science.

According to the LDS church, “Whether the mortal bodies of man evolved in natural processes to present perfection” or were formed by some other means is “not fully answered in the revealed word of God.” That God may have created the mechanism by which all life was formed—rather than each organism separately—is a concept that the authors find to be a satisfying and awe-inspiring possibility.

"Wright's views about population genetics and evolution are so fundamental and so comprehensive that every serious student must examine these books firsthand. . . . Publication of this treatise is a major event in evolutionary biology."-Daniel L. Hartl, BioScience

"Wright's views about population genetics and evolution are so fundamental and so comprehensive that every serious student must examine these books firsthand. . . . Publication of this treatise is a major event in evolutionary biology."-Daniel L. Hartl, BioScience

"Wright's views about population genetics and evolution are so fundamental and so comprehensive that every serious student must examine these books firsthand. . . . Publication of this treatise is a major event in evolutionary biology."-Daniel L. Hartl, BioScience

"Wright's views about population genetics and evolution are so fundamental and so comprehensive that every serious student must examine these books firsthand. . . . Publication of this treatise is a major event in evolutionary biology."-Daniel L. Hartl, BioScience

"By combining recent advances in the physical sciences with some of the novel ideas, techniques, and data of modern biology, this book attempts to achieve a new and different kind of evolutionary synthesis. I found it to be challenging, fascinating, infuriating, and provocative, but certainly not dull."—James H, Brown, University of New Mexico

"This book is unquestionably mandatory reading not only for every living biologist but for generations of biologists to come."—Jack P. Hailman, Animal Behaviour, review of the first edition

"An important contribution to modern evolutionary thinking. It fortifies the place of Evolutionary Theory among the other well-established natural laws."—R.Gessink,TAXON

Evolution, Games, and God explores how cooperation and altruism, alongside mutation and natural selection, play a critical role in evolution, from microbes to human societies. Inheriting a tendency to cooperate and self-sacrifice on behalf of others may be as beneficial to a population’s survival as the self-preserving instincts of individuals.

With BPA in baby bottles, mercury in fish, and lead in computer monitors, the world has become a toxic place. But as Emily Monosson demonstrates in her groundbreaking new book, it has always been toxic. When oxygen first developed in Earth's atmosphere, it threatened the very existence of life: now we literally can't live without it. According to Monosson, examining how life adapted to such early threats can teach us a great deal about today's (and tomorrow's) most dangerous contaminants. While the study of evolution has advanced many other sciences, from conservation biology to medicine, the field of toxicology has yet to embrace this critical approach.In Evolution in a Toxic World, Monosson seeks to change that. She traces the development of life's defense systems—the mechanisms that transform, excrete, and stow away potentially harmful chemicals—from more than three billion years ago to today. Beginning with our earliest ancestors' response to ultraviolet radiation, Monosson explores the evolution of chemical defenses such as antioxidants, metal binding proteins, detoxification, and cell death.

As we alter the world's chemistry, these defenses often become overwhelmed faster than our bodies can adapt. But studying how our complex internal defense network currently operates, and how it came to be that way, may allow us to predict how it will react to novel and existing chemicals. This understanding could lead to not only better management and preventative measures, but possibly treatment of current diseases. Development of that knowledge starts with this pioneering book.

All of Sewall Wright's published papers on evolution up to 1950, and a few published later, are gathered in this volume. William Provine's introductions to each paper include pertinent references to related portions of Provine's Sewall Wright and Evolutionary Biology and Wright's four-volume masterwork, Evolution and the Genetics of Populations. By comparing the papers in this volume with the corresponding topics in the larger work, it is possible to determine the respects in which Wright extended, changed, or remained constant in his ideas over a period of sixty years.

Wright's shifting-balance theory of evolution, first conceived in 1925, has proved enormously useful in modern evolutionary biology. Wright's international prestige has never been higher than it is currently, and the time is ripe for a rereading of his seminal papers. These papers are not only historically important for understanding the period of the "evolutionary synthesis" of the 1930s and 1940s, but continue to be stimulating and useful to working evolutionary biologists today.

The Evolution Wars draws on history, science, and philosophy to examine the development of evolutionary thought through the past two and a half centuries. It focuses on the debates that have engaged, divided, and ultimately provoked scientists to ponder the origins of organisms—including humankind—paying regard to the nineteenth-century clash over the nature of classification and debates about the fossil record, genetics, and human nature. Much attention is paid to external factors and the underlying motives of scientists.

In these pages you will meet Charles Darwin’s ebullient grandfather Erasmus, the contentious Frenchmen Georges Cuvier and Etienne Geoffroy Stain-Hillaire, new creationist Phillip Johnson, the brilliant J. B. S. Haldane, outspoken Richard Dawkins, and many other stars of the debates.

The Evolution Wars explores the ten greatest controversies surrounding evolution in world history, with emphasis on recent times, including the infamous Scopes trial of the 1920s: the search for human origins and speculation about the “missing link,” spurred by the discovery of “Lucy;” the debate surrounding the new theory of paleontology proposed by Stephen Jay Gould; and the rise of teaching “creation science” in public school as a subject on par with evolution.

Although the author takes a strong stand on the side of evolution, he also shows respect for dissenting viewpoints. Thus, the book is intellectually rewarding not only for evolutionists but also for opponents of evolution theory, especially those who want to see how one of the great ideas of Western civilization resonates through time, both within and beyond the scientific community.

At a time of unprecedented expansion in the life sciences, evolution is the one theory that transcends all of biology. Any observation of a living system must ultimately be interpreted in the context of its evolution. Evolutionary change is the consequence of mutation and natural selection, which are two concepts that can be described by mathematical equations. Evolutionary Dynamics is concerned with these equations of life. In this book, Martin A. Nowak draws on the languages of biology and mathematics to outline the mathematical principles according to which life evolves. His work introduces readers to the powerful yet simple laws that govern the evolution of living systems, no matter how complicated they might seem.
Evolution has become a mathematical theory, Nowak suggests, and any idea of an evolutionary process or mechanism should be studied in the context of the mathematical equations of evolutionary dynamics. His book presents a range of analytical tools that can be used to this end: fitness landscapes, mutation matrices, genomic sequence space, random drift, quasispecies, replicators, the Prisoner’s Dilemma, games in finite and infinite populations, evolutionary graph theory, games on grids, evolutionary kaleidoscopes, fractals, and spatial chaos. Nowak then shows how evolutionary dynamics applies to critical real-world problems, including the progression of viral diseases such as AIDS, the virulence of infectious agents, the unpredictable mutations that lead to cancer, the evolution of altruism, and even the evolution of human language. His book makes a clear and compelling case for understanding every living system—and everything that arises as a consequence of living systems—in terms of evolutionary dynamics.

Evolutionary innovations—the bony skeleton of vertebrates, avian flight, or the insect pollination system of angiosperms, for example—have in recent years become the focus of much fertile new research in evolutionary biology. Innovations may hold the keys to understanding why whole new groups of organisms evolve or, conversely, why groups of organisms become extinct. This volume brings together contributors from the fields of morphology, genetics, embryology, physiology, and paleontology to present research on evolutionary innovations and to suggest directions for further work.

The topics covered include the plurality of evolutionary innovations, patterns and processes at different hierarchical levels, evolutionary genetics of adaptations, heterochrony and other mechanisms of radical evolutionary change in early development, developmental mechanisms at the origin of morphological novelty, the evolution of morphological variation patterns, functional design and its punctuated products, plausibility and testability in assessing the consequences of evolutionary innovations, paradigms and pitfalls of studying physiological evolution, polyphyletic constructional breakthroughs in fossil and extant species, ecology of evolutionary innovations in the fossil record.

This work is a bold new effort to embrace all aspects of life&mdash;molecular, cellular, behavioral, and cultural&mdash;within the formulation of a general theory of evolution that extends classical Darwinian theory to include human society.

The natural world is infinitely complex and hierarchically structured, with smaller units forming the components of progressively larger systems: molecules make up cells, cells comprise tissues and organs that are, in turn, parts of individual organisms, which are united into populations and integrated into yet more encompassing ecosystems. In the face of such awe-inspiring complexity, there is a need for a comprehensive, non-reductionist evolutionary theory. Having emerged at the crossroads of paleobiology, genetics, and developmental biology, the hierarchical approach to evolution provides a unifying perspective on the natural world and offers an operational framework for scientists seeking to understand the way complex biological systems work and evolve.

Coedited by one of the founders of hierarchy theory and featuring a diverse and renowned group of contributors, this volume provides an integrated, comprehensive, cutting-edge introduction to the hierarchy theory of evolution. From sweeping historical reviews to philosophical pieces, theoretical essays, and strictly empirical chapters, it reveals hierarchy theory as a vibrant field of scientific enterprise that holds promise for unification across the life sciences and offers new venues of empirical and theoretical research. Stretching from molecules to the biosphere, hierarchy theory aims to provide an all-encompassing understanding of evolution and—with this first collection devoted entirely to the concept—will help make transparent the fundamental patterns that propel living systems.

Today, evolutionary biology is much more than an explanatory concept. It is indispensable to the world we live in. This book provides the first truly accessible and balanced account of how evolution has become a tool with applications that are thoroughly integrated, and deeply useful, in our everyday lives and our societies, often in ways that we do not realize. The Evolving World convinces us as never before that evolutionary biology has become absolutely necessary for human existence.

Upon its publication, The Origin of Species was critically embraced in Europe and North America. But how did Darwin’s theories fare in other regions of the world? Adriana Novoa and Alex Levine offer here a history and interpretation of the reception of Darwinism in Argentina, illuminating the ways culture shapes scientific enterprise.

In order to explore how Argentina’s particular interests, ambitions, political anxieties, and prejudices shaped scientific research, From Man to Ape focuses on Darwin’s use of analogies. Both analogy and metaphor are culturally situated, and by studying scientific activity at Europe’s geographical and cultural periphery, Novoa and Levine show that familiar analogies assume unfamiliar and sometimes startling guises in Argentina. The transformation of these analogies in the Argentine context led science—as well as the interaction between science, popular culture, and public policy—in surprising directions. In diverging from European models, Argentine Darwinism reveals a great deal about both Darwinism and science in general.

Novel in its approach and its subject, From Man to Ape reveals a new way of understanding Latin American science and its impact on the scientific communities of Europe and North America.

Gould shows why a more accurate way of understanding our world is to look at a given subject within its own context, to see it as a part of a spectrum of variation and then to reconceptualize trends as expansion or contraction of this “full house” of variation, and not as the progress or degeneration of an average value, or single thing.

George Eliot's Religious Imagination addresses the much-discussed question of Eliot’s relation to Christianity in the wake of the sociocultural revolution triggered by the spread of theories of evolution. The standard view is that the author of Middlemarch and Silas Marner “lost her faith” at this time of religious crisis. Orr argues for a more nuanced understanding of the continuity of Eliot’s work, as one not shattered by science, but shaped by its influence.

Orr’s wide-ranging and fascinating analysis situates George Eliot in the fertile intellectual landscape of the nineteenth century, among thinkers as diverse as Ludwig Feuerbach, David Strauss, and Søren Kierkegaard. She also argues for a connection between George Eliot and the twentieth-century evolutionary Christian thinker Pierre Teilhard de Chardin. Her analysis draws on the work of contemporary philosopher Richard Kearney as well as writers on mysticism, particularly Karl Rahner.

The book takes an original look at questions many believe settled, encouraging readers to revisit George Eliot’s work. Orr illuminates the creative tension that still exists between science and religion, a tension made fruitful through the exercise of the imagination. Through close readings of Eliot's writings, Orr demonstrates how deeply the novelist's religious imagination continued to operate in her fiction and poetry.

Philosopher Daniel Milo offers a vigorous critique of the quasi-monopoly that Darwin’s natural selection has on our idea of the natural world. In popular thought, Darwinism has even acquired the trappings of an ethical system, focused on optimization, competition, and innovation. Yet in nature, imperfect creatures often have the evolutionary edge.

Pictures from the past powerfully shape current views of the world. In books, television programs, and websites, new images appear alongside others that have survived from decades ago. Among the most famous are drawings of embryos by the Darwinist Ernst Haeckel in which humans and other vertebrates begin identical, then diverge toward their adult forms. But these icons of evolution are notorious, too: soon after their publication in 1868, a colleague alleged fraud, and Haeckel’s many enemies have repeated the charge ever since. His embryos nevertheless became a textbook staple until, in 1997, a biologist accused him again, and creationist advocates of intelligent design forced his figures out. How could the most controversial pictures in the history of science have become some of the most widely seen?

In Haeckel’s Embryos, Nick Hopwood tells this extraordinary story in full for the first time. He tracks the drawings and the charges against them from their genesis in the nineteenth century to their continuing involvement in innovation in the present day, and from Germany to Britain and the United States. Emphasizing the changes worked by circulation and copying, interpretation and debate, Hopwood uses the case to explore how pictures succeed and fail, gain acceptance and spark controversy. Along the way, he reveals how embryonic development was made a process that we can see, compare, and discuss, and how copying—usually dismissed as unoriginal—can be creative, contested, and consequential.

With a wealth of expertly contextualized illustrations, Haeckel’s Embryos recaptures the shocking novelty of pictures that enthralled schoolchildren and outraged priests, and highlights the remarkable ways these images kept on shaping knowledge as they aged.

Personal genomics services such as 23andMe and Ancestry.com now offer what once was science fiction: the ability to sequence and analyze an individual’s entire genetic code—promising, in some cases, facts about that individual’s ancestry that may have remained otherwise lost. Such services draw on and contribute to the science of human population genetics that attempts to reconstruct the history of humankind, including the origin and movement of specific populations. Is it true, though, that who we are and where we come from is written into the sequence of our genomes? Are genes better documents for determining our histories and identities than fossils or other historical sources?

Our interpretation of gene sequences, like our interpretation of other historical evidence, inevitably tells a story laden with political and moral values. Focusing on the work of Henry Fairfield Osborn, Julian Sorell Huxley, and Luigi Luca Cavalli-Sforza in paleoanthropology, evolutionary biology, and human population genetics, History Within asks how the sciences of human origins, whether through the museum, the zoo, or the genetics lab, have shaped our idea of what it means to be human. How have these biologically based histories influenced our ideas about nature, society, and culture? As Marianne Sommer shows, the stories we tell about bones, organisms, and molecules often change the world.

Gould’s final essay collection is based on his remarkable series for Natural History magazine—exactly 300 consecutive essays, with never a month missed, published from 1974 to 2001. Both an intellectually thrilling journey into the nature of scientific discovery and the most personal book he ever published.

Tracing the growth of creationism in America as a political movement, this book explains why the particularly American phenomenon of anti-evolution has succeeded as a popular belief. Conceptualizing the history of creationism as a strategic public relations campaign, Edward Caudill examines why this movement has captured the imagination of the American public, from the explosive Scopes trial of 1925 to today's heated battles over public school curricula. Caudill shows how creationists have appealed to cultural values such as individual rights and admiration of the rebel spirit, thus spinning creationism as a viable, even preferable, alternative to evolution.

In particular, Caudill argues that the current anti-evolution campaign follows a template created by Clarence Darrow and William Jennings Bryan, the Scopes trial's primary combatants. Their celebrity status and dexterity with the press prefigured the Moral Majority's 1980s media blitz, more recent staunchly creationist politicians such as Sarah Palin and Mike Huckabee, and creationists' savvy use of the Internet and museums to publicize their cause. Drawing from trial transcripts, media sources, films, and archival documents, Intelligently Designed highlights the importance of historical myth in popular culture, religion, and politics and situates this nearly century-old debate in American cultural history.

“It is not only the species that change evolutionarily through interactions . . . the interactions themselves also change.” Thus states John N. Thompson in the foreword to Interaction and Coevolution, the first title in his series of books exploring the relentless nature of evolution and the processes that shape the web of life. Originally published in 1982 more as an idea piece—an early attempt to synthesize then academically distinct but logically linked strands of ecological thought and to suggest avenues for further research—than as a data-driven monograph, Interaction and Coevolution would go on to be considered a landmark study that pointed to the beginning of a new discipline. Through chapters on antagonism, mutualism, and the effects of these interactions on populations, speciation, and community structure, Thompson seeks to explain not only how interactions differ in the selection pressures they exert on species, but also when interactions are most likely to lead to coevolution. In this era of climate change and swiftly transforming environments, the ideas Thompson puts forward in Interaction and Coevolution are more relevant than ever before.

Darwin’s theory of evolution transformed the life sciences and made profound claims about human origins and the human condition, topics often viewed as the prerogative of religion. As a result, evolution has provoked a wide variety of religious responses, ranging from angry rejection to enthusiastic acceptance. While Christian responses to evolution have been studied extensively, little scholarly attention has been paid to Jewish reactions. Jewish Tradition and the Challenge of Darwinism is the first extended meditation on the Jewish engagement with this crucial and controversial theory.

The contributors to Jewish Tradition and the Challenge of Darwinism—from several academic disciplines and two branches of the rabbinate—present case studies showing how Jewish discussions of evolution have been shaped by the intersections of faith, science, philosophy, and ideology in specific historical contexts. Furthermore, they examine how evolutionary theory has been deployed when characterizing Jews as a race, both by Zionists and by anti-Semites. Jewish Tradition and the Challenge of Darwinism addresses historical and contemporary, as well as progressive and Orthodox, responses to evolution in America, Europe, and Israel, ultimately extending the history of Darwinism into new religious domains.

By unlocking the evolutionary information contained in cells, biologists have been able to construct the Tree of Life and show that its three main stems are dominated by microbes. Plants and animals constitute a small upper branch in one stem. Soon we may know how life began over 3.5 billion years ago. John Ingraham tells this story of discovery.

What makes us alive? Is it our DNA? Our genetics? Is it our atomic composition that gives us life? Somehow, all of this feels radically dissonant from our everyday experience. In Life beyond Molecules and Genes, experimental biologist Stephen Rothman makes the bold case that it is, in fact, our adaptive abilities, hewn by evolution, that make us alive. In making this point, he reveals a hidden harmony between science and life as we live it.

The traditionally accepted understanding of adaptive properties (e.g., the abilities to obtain food, avoid predators, procreate) has been that these are actions of living things or traits that they express. Rothman makes the provocative assertion that this foundational element of the modern materialist perspective is entirely backwards. Our adaptive properties do not exist because we are alive, but rather we are alive because they exist. The implications of this assertion turn the theory of evolution by natural selection on its head by revealing that life transcends its material nature.

Students and scholars of the biological sciences as well as those interested in the philosophy of science will find this work both fascinating and challenging, perhaps even controversial. For centuries, the field of biology has focused on the seemingly mundane task of identifying and cataloging life's chemical substances, while ignoring its grand question: "What is it that makes us alive?" With Life beyond Molecules and Genes, perhaps the field will move a bit closer toward an answer.

The story of life's splendid drama has captivated generations of the general public, just as it has intrigued biologists, especially those who began to try to solve evolutionary puzzles in the years immediately after the publication of Darwin's Origin of Species in 1859. Yet histories of the Darwinian revolution have paid far more attention to theoretical debates and have largely ignored the researchers who struggled to comprehend the deeper evolutionary significance of fossil bones and the structures of living animals. Peter J. Bowler recovers some of this lost history in Life's Splendid Drama, the definitive account of evolutionary morphology and its relationships with paleontology and bio-geography.

"[Bowler's] comprehensive review of the various debates and ideas in taxonomy, morphology, and vertebrate evolution . . . deserves the attention of biologists and other scholars interested in the history of ideas."—Choice

"The persistence of pre-Darwinian modes of thought in contemporary biology underlines the importance of Bowler's book. Its value is not only in the history it provides, but also in the way it illumines the present."—Peter J. Causton, Boston Book Review

Gould covers topics as diverse as episodes in the birth of paleontology to lessons from Britain’s four greatest Victorian naturalists. This collection presents the richness and fascination of the various lives that have fueled the enterprise of science and opened our eyes to a world of unexpected wonders.

Making Sense of Evolution explores contemporary evolutionary biology, focusing on the elements of theories—selection, adaptation, and species—that are complex and open to multiple possible interpretations, many of which are incompatible with one another and with other accepted practices in the discipline. Particular experimental methods, for example, may demand one understanding of “selection,” while the application of the same concept to another area of evolutionary biology could necessitate a very different definition.

Spotlighting these conceptual difficulties and presenting alternate theoretical interpretations that alleviate this incompatibility, Massimo Pigliucci and Jonathan Kaplan intertwine scientific and philosophical analysis to produce a coherent picture of evolutionary biology. Innovative and controversial, Making Sense of Evolution encourages further development of the Modern Synthesis and outlines what might be necessary for the continued refinement of this evolving field.

Did Darwin see evolution as progressive, directed toward producing ever more advanced forms of life? Most contemporary scholars say no. In this challenge to prevailing views, Robert J. Richards says yes—and argues that current perspectives on Darwin and his theory are both ideologically motivated and scientifically unsound.

This provocative new reading of Darwin goes directly to the origins of evolutionary theory. Unlike most contemporary biologists or historians and philosophers of science, Richards holds that Darwin did concern himself with the idea of progress, or telos, as he constructed his theory. Richards maintains that Darwin drew on the traditional embryological meanings of the terms "evolution" and "descent with modification." In the 1600s and 1700s, "evolution" referred to the embryological theory of preformation, the idea that the embryo exists as a miniature adult of its own species that simply grows, or evolves, during gestation. By the early 1800s, however, the idea of preformation had become the concept of evolutionary recapitulation, the idea that during its development an embryo passes through a series of stages, each the adult form of an ancestor species.

Richards demonstrates that, for Darwin, embryological recapitulation provided a graphic model of how species evolve. If an embryo could be seen as successively taking the structures and forms of its ancestral species, then one could see the evolution of life itself as a succession of species, each transformed from its ancestor. Richards works with the Origin and other published and archival material to show that these embryological models were much on Darwin's mind as he considered the evidence for descent with modification.

Why do so many modern researchers find these embryological roots of Darwin's theory so problematic? Richards argues that the current tendency to see evolution as a process that is not progressive and not teleological imposes perspectives on Darwin that incorrectly deny the clearly progressive heart of his embryological models and his evolutionary theory.

First published in 1974 as a companion volume to Darwin on Man by Howard E. Gruber, Paul Barrett’s transcriptions of Darwin’s M and N notebooks served to shed new light on the evolutionist’s methods and motivation.

According to Stephen Jay Gould in the New York Times Book Review, “Darwin kept [these notebooks] primarily in 1838, when he was 29 years old. In them, he recorded his early conviction of evolutionary continuity between humans and all other animals. . . . These notebooks display all the features of humanistic intellect that his detractors denied. We find erudition in his comments on Plato, Locke, Hume, Adam Smith, Whewell, Burke, Montaigne, Lessing and Spencer. . . . We appreciate an artistic bent in his delight with nature and her prophet Wordsworth. . . . We grasp the breadth of his bold attempt to clothe all human thought and behaviour in a new evolutionary garb. . . . Charles Darwin was reconstructing the world and he knew exactly what he was doing.”

Modularity in Development and Evolution offers the first sustained exploration of modules from developmental and evolutionary perspectives. Contributors discuss what modularity is, how it can be identified and modeled, how it originated and evolved, and its biological significance. Covering modules at levels ranging from genes to colonies, the book focuses on their roles not just in structures but also in processes such as gene regulation. Among many exciting findings, the contributors demonstrate how modules can highlight key constraints on evolutionary processes.

A timely synthesis of a crucial topic, Modularity in Development and Evolution shows the invaluable insights modules can give into both developmental complexities and their evolutionary origins.

What, if anything, does biological evolution tell us about the nature of religion, ethical values, or even the meaning and purpose of life? The Moral Meaning of Nature sheds new light on these enduring questions by examining the significance of an earlier—and unjustly neglected—discussion of Darwin in late nineteenth-century Germany.

We start with Friedrich Nietzsche, whose writings staged one of the first confrontations with the Christian tradition using the resources of Darwinian thought. The lebensphilosophie, or “life-philosophy,” that arose from his engagement with evolutionary ideas drew responses from other influential thinkers, including Franz Overbeck, Georg Simmel, and Heinrich Rickert. These critics all offered cogent challenges to Nietzsche’s appropriation of the newly transforming biological sciences, his negotiation between science and religion, and his interpretation of the implications of Darwinian thought. They also each proposed alternative ways of making sense of Nietzsche’s unique question concerning the meaning of biological evolution “for life.” At the heart of the discussion were debates about the relation of facts and values, the place of divine purpose in the understanding of nonhuman and human agency, the concept of life, and the question of whether the sciences could offer resources to satisfy the human urge to discover sources of value in biological processes. The Moral Meaning of Nature focuses on the historical background of these questions, exposing the complex ways in which they recur in contemporary philosophical debate.

Despite recent advances in genetics, development, anatomy, systematics, and morphometrics, the synthesis of ideas and research agenda put forth in the classic Morphological Integration remains remarkably fresh, timely, and relevant. Pioneers in reexamining morphology, Everett Olson and Robert Miller were among the first to explore the concept of the integrated organism in both living and extinct populations. In a new foreword and afterword, biologists Barry Chernoff and Paul Magwene summarize the landmark achievements made by Olson and Miller and bring matters discussed in the book up to date, suggest new methods, and accentuate the importance of continued research in morphological integration.

Everett C. Olson was a professor at the University of Chicago and at the University of California, Los Angeles. He was a former president of the Society of Vertebrate Paleontology. Robert L. Miller was associate professor of geology at the University of Chicago, associate scientist in marine geology at the Woods Hole Oceanographic Institution, and a member of the board of editors of the Journal of Geology.

Inbreeding, the mating of close kin, and outbreeding, the mating of distant relatives or unrelated organisms, have long been important subjects to evolutionary biologists. Inbreeding reduces genetic diversity in a population, increasing the likelihood that genetic defects will become widespread and deprive a population of the diversity it may need to cope with its environment. Most plants and animals have evolved behavioral and morphological mechanisms to avoid inbreeding. However, today many endangered species exist only in small, very isolated populations where inbreeding is unavoidable, so it has become a concern for conservationists. In this volume, twenty-six experts in evolution, behavior, and genetics examine the causes and consequences of inbreeding.

The authors ask whether inbreeding is as problematic as biologists have thought, under what ecological conditions inbreeding occurs, and whether organisms that inbreed have mechanisms to dampen the anticipated problems of reduced genetic variation. The studies, including theoretical and empirical work on wild and captive populations, demonstrate that many plants and animals inbreed to a greater extent than biologists have thought, with variable effects on individual fitness. Graduate students and researchers in evolutionary biology, animal behavior, ecology, and conservation biology will welcome this wide-ranging collection.

The Nature of Selection is a straightforward, self-contained introduction to philosophical and biological problems in evolutionary theory. It presents a powerful analysis of the evolutionary concepts of natural selection, fitness, and adaptation and clarifies controversial issues concerning altruism, group selection, and the idea that organisms are survival machines built for the good of the genes that inhabit them.

"Sober's is the answering philosophical voice, the voice of a first-rate philosopher and a knowledgeable student of contemporary evolutionary theory. His book merits broad attention among both communities. It should also inspire others to continue the conversation."-Philip Kitcher, Nature

"Elliott Sober has made extraordinarily important contributions to our understanding of biological problems in evolutionary biology and causality. The Nature of Selection is a major contribution to understanding epistemological problems in evolutionary theory. I predict that it will have a long lasting place in the literature."-Richard C. Lewontin

A spiritualist, libertarian socialist, women’s rights advocate, and critic of Victorian social convention, Alfred Russel Wallace was in every sense a rebel who challenged the emergent scientific certainties of Victorian England by arguing for a natural world imbued with purpose and spiritual significance. Nature’s Prophet:Alfred Russel Wallace and His Evolution from Natural Selection to Natural Theology is a critical reassessment of Wallace’s path to natural theology and counters the dismissive narrative that Wallace’s theistic and sociopolitical positions are not to be taken seriously in the history and philosophy of science.

Author Michael A. Flannery provides a cogent and lucid account of a crucial—and often underappreciated—element of Wallace’s evolutionary worldview. As co-discoverer, with Charles Darwin, of the theory of natural selection, Wallace willingly took a backseat to the well-bred, better known scientist. Whereas Darwin held fast to his first published scientific explanations for the development of life on earth, Wallace continued to modify his thinking, refining his argument toward a more controversial metaphysical view which placed him within the highly charged intersection of biology and religion.

Despite considerable research into the naturalist’s life and work, Wallace’s own evolution from natural selection to natural theology has been largely unexplored; yet, as Flannery persuasively shows, it is readily demonstrated in his writings from 1843 until his death in 1913. Nature’s Prophet provides a detailed investigation of Wallace’s ideas, showing how, although he independently discovered the mechanism of natural selection, he at the same time came to hold a very different view of evolution from Darwin.

Ultimately, Flannery shows, Wallace’s reconsideration of the argument for design yields a more nuanced version of creative and purposeful theistic evolution and represents one of the most innovative contributions of its kind in the Victorian and Edwardian eras, profoundly influencing a later generation of scientists and intellectuals.

Marking the centennial of Alfred Russel Wallace's death, James Costa presents an elegant edition of the "Species Notebook" of 1855-1859, which Wallace kept during his Malay Archipelago expedition. Presented in facsimile with text transcription and annotations, this never-before-published document provides a window into the travels, trials, and genius of the co-discoverer of natural selection.
In one section, headed "Note for Organic Law of Change"--a critique of geologist Charles Lyell's anti-evolutionary arguments--Wallace sketches a book he would never write, owing to the unexpected events of 1858. In that year he sent a manuscript announcing his discovery of natural selection to Charles Darwin. Lyell and the botanist Joseph Hooker proposed a joint reading at the Linnean Society of his scientific paper with Darwin's earlier private writings on the subject. Darwin would go on to publish On the Origin of Species in 1859, to much acclaim; pre-empted, Wallace's first book on evolution waited two decades, but by then he had abandoned his original concept. On the Organic Law of Change realizes in spirit Wallace's unfinished project, and asserts his stature as not only a founder of biogeography and the preeminent tropical biologist of his day but as Darwin's equal.

On the Origin of Phyla
James W. Valentine University of Chicago Press, 2004Library of Congress QH367.5.V26 2004 | Dewey Decimal 591.38

Owing its inspiration and title to On the Origin of Species, James W. Valentine's ambitious book synthesizes and applies the vast treasury of theory and research collected in the century and a half since Darwin's time. By investigating the origins of life's diversity, Valentine unlocks the mystery of the origin of phyla.

One of the twentieth century's most distinguished paleobiologists, Valentine here integrates data from molecular genetics, evolutionary developmental biology, embryology, comparative morphology, and paleontology into an analysis of interest to scholars from any of these fields. He begins by examining the sorts of evidence that can be gleaned from fossils, molecules, and morphology, then reviews and compares the basic morphology and development of animal phyla, emphasizing the important design elements found in the bodyplans of both living and extinct phyla. Finally, Valentine undertakes the monumental task of developing models to explain the origin and early diversification of animal phyla, as well as their later evolutionary patterns.

Truly a magnum opus, On the Origin of Phyla will take its place as one of the classic scientific texts of the twentieth century, affecting the work of paleontologists, morphologists, and developmental, molecular, and evolutionary biologists for decades to come.

"Truly a magnum opus, On the Origin of Phyla has already taken its place as one of the classic scientific texts of the twentieth century, affecting the work of paleontologists, morphologists, and developmental, molecular, and evolutionary biologists for decades to come."—Ethology, Ecology & Evolution

"Valentine is one of the Renaissance minds of our time. . . . Darwin wisely called his best-known work On the Origin of the Species; the origin of the phyla is an even stickier problem, and Valentine deserves credit for tackling it at such breadth . . . . A magnificient book."—Stefan Bengtson, Nature

The Ontogeny of Information is a critical intervention into the ongoing and perpetually troubling nature-nurture debates surrounding human development. Originally published in 1985, this was a foundational text in what is now the substantial field of developmental systems theory. In this revised edition Susan Oyama argues compellingly that nature and nurture are not alternative influences on human development but, rather, developmental products and the developmental processes that produce them. Information, says Oyama, is thought to reside in molecules, cells, tissues, and the environment. When something wondrous occurs in the world, we tend to question whether the information guiding the transformation was pre-encoded in the organism or installed through experience or instruction. Oyama looks beyond this either-or question to focus on the history of such developments. She shows that what developmental “information” does depends on what is already in place and what alternatives are available. She terms this process “constructive interactionism,” whereby each combination of genes and environmental influences simultaneously interacts to produce a unique result. Ontogeny, then, is the result of dynamic and complex interactions in multileveled developmental systems.The Ontogeny of Information challenges specialists in the fields of developmental biology, philosophy of biology, psychology, and sociology, and even nonspecialists, to reexamine the existing nature-nurture dichotomy as it relates to the history and formation of organisms.

In the grand sweep of evolution, the origin of radically new kinds of organisms in the fossil record is the result of a relatively simple process: natural selection marching through the ages. Or is it? Does Darwinian evolution acting over a sufficiently long period of time really offer a complete explanation, or are unusual genetic events and particular environmental and ecological circumstances also involved? With The Origin of Higher Taxa, Tom Kemp sifts through the layers of paleobiological, genetic, and ecological evidence on a quest to answer this essential, game-changing question of biology.

Looking beyond the microevolutionary force of Darwinian natural selection, Kemp enters the realm of macroevolution, or evolution above the species level. From the origin of mammals to the radiation of flowering plants, these large-scale patterns—such as the rise of novel organismal design, adaptive radiations, and lineage extinctions—encompass the most significant trends and transformations in evolution. As macroevolution cannot be studied by direct observation and experiment, scientists have to rely on the outcome of evolution as evidence for the processes at work, in the form of patterns of species appearances and extinctions in a spotty fossil record, and through the nature of species extant today. Marshalling a wealth of new fossil and molecular evidence and increasingly sophisticated techniques for their study, Kemp here offers a timely and original reinterpretation of how higher taxa such as arthropods, mollusks, mammals, birds, and whales evolved—a bold new take on the history of life.

"The merits of this work are many. A rigorous integration of phylogenetic hypotheses into studies of adaptation, adaptive radiation, and coevolution is absolutely necessary and can change dramatically our collective 'gestalt' about much in evolutionary biology. The authors advance and illustrate this thesis beautifully. The writing is often lucid, the examples are plentiful and diverse, and the juxtaposition of examples from different biological systems argues forcefully for the validity of the thesis. Many new insights are offered here, and the work is usually accessible to both the practiced phylogeneticist and the naive ecologist."—Joseph Travis, Florida State University

"[Phylogeny, Ecology, and Behavior] presents its arguments forcefully and cogently, with ample . . .support. Brooks and McLennan conclude as they began, with the comment that evolution is a result, not a process, and that it is the result of an interaction of a variety of processes, environmental and historical. Evolutionary explanations must consider all these components, else they are incomplete. As Darwin's explanations of descent with modification integrated genealogical and ecological information, so must workers now incorporate historical and nonhistorical, and biological and nonbiological, processes in their evolutionary perspective."—Marvalee H. Wake, Bioscience

"This book is well-written and thought-provoking, and should be read by those of us who do not routinely turn to phylogenetic analysis when investigating adaptation, evolutionary ecology and co-evolution."—Mark R. MacNair, Journal of Natural History

Although plants comprise more than 90% of all visible life, and land plants and algae collectively make up the most morphologically, physiologically, and ecologically diverse group of organisms on earth, books on evolution instead tend to focus on animals. This organismal bias has led to an incomplete and often erroneous understanding of evolutionary theory. Because plants grow and reproduce differently than animals, they have evolved differently, and generally accepted evolutionary views—as, for example, the standard models of speciation—often fail to hold when applied to them.

Tapping such wide-ranging topics as genetics, gene regulatory networks, phenotype mapping, and multicellularity, as well as paleobotany, Karl J. Niklas’s Plant Evolution offers fresh insight into these differences. Following up on his landmark book The Evolutionary Biology of Plants—in which he drew on cutting-edge computer simulations that used plants as models to illuminate key evolutionary theories—Niklas incorporates data from more than a decade of new research in the flourishing field of molecular biology, conveying not only why the study of evolution is so important, but also why the study of plants is essential to our understanding of evolutionary processes. Niklas shows us that investigating the intricacies of plant development, the diversification of early vascular land plants, and larger patterns in plant evolution is not just a botanical pursuit: it is vital to our comprehension of the history of all life on this green planet.

Historians of science have long noted the influence of the nineteenth-century political economist Thomas Robert Malthus on Charles Darwin. In a bold move, Piers J. Hale contends that this focus on Malthus and his effect on Darwin’s evolutionary thought neglects a strong anti-Malthusian tradition in English intellectual life, one that not only predated the 1859 publication of the Origin of Species but also persisted throughout the Victorian period until World War I. Political Descent reveals that two evolutionary and political traditions developed in England in the wake of the 1832 Reform Act: one Malthusian, the other decidedly anti-Malthusian and owing much to the ideas of the French naturalist Jean Baptiste Lamarck.

These two traditions, Hale shows, developed in a context of mutual hostility, debate, and refutation. Participants disagreed not only about evolutionary processes but also on broader questions regarding the kind of creature our evolution had made us and in what kind of society we ought therefore to live. Significantly, and in spite of Darwin’s acknowledgement that natural selection was “the doctrine of Malthus, applied to the whole animal and vegetable kingdoms,” both sides of the debate claimed to be the more correctly “Darwinian.” By exploring the full spectrum of scientific and political issues at stake, Political Descent offers a novel approach to the relationship between evolution and political thought in the Victorian and Edwardian eras.

Looking for the first time at the cut-price anatomy schools rather than genteel Oxbridge, Desmond winkles out pre-Darwinian evolutionary ideas in reform-minded and politically charged early nineteenth-century London. In the process, he reveals the underside of London intellectual and social life in the generation before Darwin as it has never been seen before.

"The Politics of Evolution is intellectual dynamite, and certainly one of the most important books in the history of science published during the past decade."—Jim Secord, Times Literary Supplement

"One of those rare books that not only stakes out new territory but demands a radical overhaul of conventional wisdom."—John Hedley Brooke, Times Higher Education Supplement

At a glance, most species seem adapted to the environment in which they live. Yet species relentlessly evolve, and populations within species evolve in different ways. Evolution, as it turns out, is much more dynamic than biologists realized just a few decades ago.

In Relentless Evolution, John N. Thompson explores why adaptive evolution never ceases and why natural selection acts on species in so many different ways. Thompson presents a view of life in which ongoing evolution is essential and inevitable. Each chapter focuses on one of the major problems in adaptive evolution: How fast is evolution? How strong is natural selection? How do species co-opt the genomes of other species as they adapt? Why does adaptive evolution sometimes lead to more, rather than less, genetic variation within populations? How does the process of adaptation drive the evolution of new species? How does coevolution among species continually reshape the web of life? And, more generally, how are our views of adaptive evolution changing?

Relentless Evolution draws on studies of all the major forms of life—from microbes that evolve in microcosms within a few weeks to plants and animals that sometimes evolve in detectable ways within a few decades. It shows evolution not as a slow and stately process, but rather as a continual and sometimes frenetic process that favors yet more evolutionary change.

How did human beings acquire imaginations that can conjure up untrue possibilities? How did the Universe become self-aware? In The Runes of Evolution, Simon Conway Morris revitalizes the study of evolution from the perspective of convergence, providing us with compelling new evidence to support the mounting scientific view that the history of life is far more predictable than once thought.

A leading evolutionary biologist at the University of Cambridge, Conway Morris came into international prominence for his work on the Cambrian explosion (especially fossils of the Burgess Shale) and evolutionary convergence, which is the process whereby organisms not closely related (not monophyletic), independently evolve similar traits as a result of having to adapt to similar environments or ecological niches.

In The Runes of Evolution, he illustrates how the ubiquity of convergence hints at an underlying framework whereby many outcomes, not least brains and intelligence, are virtually guaranteed on any Earth-like planet. Conway Morris also emphasizes how much of the complexity of advanced biological systems is inherent in microbial forms.

By casting a wider net, The Runes of Evolution explores many neglected evolutionary questions. Some are remarkably general. Why, for example, are convergences such as parasitism, carnivory, and nitrogen fixation in plants concentrated in particular taxonomic hot spots? Why do certain groups have a particular propensity to evolve toward particular states?

Some questions lead to unexpected evolutionary insights: If bees sleep (as they do), do they dream? Why is that insect copulating with an orchid? Why have sponges evolved a system of fiber optics? What do mantis shrimps and submarines have in common? If dinosaurs had not gone extinct what would have happened next? Will a saber-toothed cat ever re-evolve?

Cona Morris observes: “Even amongst the mammals, let alone the entire tree of life, humans represent one minute twig of a vast (and largely fossilized) arborescence. Every living species is a linear descendant of an immense string of now-vanished ancestors, but evolution itself is the very reverse of linear. Rather it is endlessly exploratory, probing the vast spaces of biological hyperspace. Indeed this book is a celebration of how our world is (and was) populated by a riot of forms, a coruscating tapestry of life.”

The Runes of Evolution is the most definitive synthesis of evolutionary convergence to be published to date.

"Provine's thorough and thoroughly admirable examination of Wright's life and influence, which is accompanied by a very useful collection of Wright's papers on evolution, is the best we have for any recent figure in evolutionary biology."—Joe Felsenstein, Nature

"In Sewall Wright and Evolutionary Biology . . . Provine has produced an intellectual biography which serves to chart in considerable detail both the life and work of one man and the history of evolutionary theory in the middle half of this century. Provine is admirably suited to his task. . . . The resulting book is clearly a labour of love which will be of great interest to those who have a mature interest in the history of evolutionary theory."-John Durant, ;ITimes Higher Education Supplement;X

Nature has published news about the history of life ever since its first issue in 1869, in which T. H. Huxley ("Darwin's bulldog") wrote about Triassic dinosaurs. In recent years, the field has enjoyed a tremendous flowering due to new investigative techniques drawn from cladistics (a revolutionary method for charting evolutionary relationships) and molecular biology.

Shaking the Tree brings together nineteen review articles written for Nature over the past decade by many of the major figures in paleontology and evolution, from Stephen Jay Gould to Simon Conway Morris. Each article is brief, accessible, and opinionated, providing "shoot from the hip" accounts of the latest news and debates. Topics covered include major extinction events, homeotic genes and body plans, the origin and evolution of the primates, and reconstructions of phylogenetic trees for a wide variety of groups. The editor, Henry Gee, gives new commentary and updated references.

Shaking the Tree is a one-stop resource for engaging overviews of the latest research in the history of life on Earth.

Our breath catches and we jump in fear at the sight of a snake. We pause and marvel at the sublime beauty of a sunrise. These reactions are no accident; in fact, many of our human responses to nature are steeped in our deep evolutionary past—we fear snakes because of the danger of venom or constriction, and we welcome the assurances of the sunrise as the predatory dangers of the dark night disappear. Many of our aesthetic preferences—from the kinds of gardens we build to the foods we enjoy and the entertainment we seek—are the lingering result of natural selection.

In this ambitious and unusual work, evolutionary biologist Gordon H. Orians explores the role of evolution in human responses to the environment, beginning with why we have emotions and ending with evolutionary approaches to aesthetics. Orians reveals how our emotional lives today are shaped by decisions our ancestors made centuries ago on African savannas as they selected places to live, sought food and safety, and socialized in small hunter-gatherer groups. During this time our likes and dislikes became wired in our brains, as the appropriate responses to the environment meant the difference between survival or death. His rich analysis explains why we mimic the tropical savannas of our ancestors in our parks and gardens, why we are simultaneously attracted to danger and approach it cautiously, and how paying close attention to nature’s sounds has resulted in us being an unusually musical species. We also learn why we have developed discriminating palates for wine, and why we have strong reactions to some odors, and why we enjoy classifying almost everything.

By applying biological perspectives ranging from Darwin to current neuroscience to analyses of our aesthetic preferences for landscapes, sounds, smells, plants, and animals, Snakes, Sunrises, and Shakespeare transforms how we view our experience of the natural world and how we relate to each other.

If the thesis advanced in this book can be corroborated by experiments currently being carried out in a number of laboratories around the world, it will signify an intellectual revolution and a landmark in the history of science. E. J. Steele here suggests that on the basis of his own immunological research, the theory originally put forward by Lamarck 170 years ago and subsequently rejected—the notion that organisms may transmit characters acquired in their lifetimes to their offspring—may in fact be right. In the new postscript to the second edition, Steele presents his latest findings and replies to the enormous body of criticism his research has engendered.

Although the species is one of the fundamental units of biological classification, there is remarkably little consensus among biologists about what defines a species, even within distinct sub-disciplines. The literature of paleobiology, in particular, is littered with qualifiers and cautions about applying the term to the fossil record or equating such species with those recognized among living organisms. In Species and Speciation in the Fossil Record, experts in the field examine how they conceive of species of fossil animals and consider the implications these different approaches have for thinking about species in the context of macroevolution.

After outlining views of the Modern Synthesis of evolutionary disciplines and detailing the development within paleobiology of quantitative methods for documenting and analyzing variation within fossil assemblages, contributors explore the challenges of recognizing and defining species from fossil specimens—and offer potential solutions. Addressing both the tempo and mode of speciation over time, they show how with careful interpretation and a clear species concept, fossil species may be sufficiently robust for meaningful paleobiological analyses. Indeed, they demonstrate that the species concept, if more refined, could unearth a wealth of information about the interplay between species origins and extinctions, between local and global climate change, and greatly deepen our understanding of the evolution of life.

The world’s most revered and eloquent interpreter of evolutionary ideas offers here a work of explanatory force unprecedented in our time—a landmark publication, both for its historical sweep and for its scientific vision.
With characteristic attention to detail, Stephen Jay Gould first describes the content and discusses the history and origins of the three core commitments of classical Darwinism: that natural selection works on organisms, not genes or species; that it is almost exclusively the mechanism of adaptive evolutionary change; and that these changes are incremental, not drastic. Next, he examines the three critiques that currently challenge this classic Darwinian edifice: that selection operates on multiple levels, from the gene to the group; that evolution proceeds by a variety of mechanisms, not just natural selection; and that causes operating at broader scales, including catastrophes, have figured prominently in the course of evolution.
Then, in a stunning tour de force that will likely stimulate discussion and debate for decades, Gould proposes his own system for integrating these classical commitments and contemporary critiques into a new structure of evolutionary thought.
In 2001 the Library of Congress named Stephen Jay Gould one of America’s eighty-three Living Legends—people who embody the “quintessentially American ideal of individual creativity, conviction, dedication, and exuberance.” Each of these qualities finds full expression in this peerless work, the likes of which the scientific world has not seen—and may not see again—for well over a century.

No fight over what gets taught in American classrooms is more heated than the battle over humanity’s origins. For more than a century we have argued about evolutionary theory and creationism (and its successor theory, intelligent design), yet we seem no closer to a resolution than we were in Darwin’s day. In this thoughtful examination of how we teach origins, historian Adam Laats and philosopher Harvey Siegel offer crucial new ways to think not just about the evolution debate but how science and religion can make peace in the classroom.

Laats and Siegel agree with most scientists: creationism is flawed, as science. But, they argue, students who believe it nevertheless need to be accommodated in public school science classes. Scientific or not, creationism maintains an important role in American history and culture as a point of religious dissent, a sustained form of protest that has weathered a century of broad—and often dramatic—social changes. At the same time, evolutionary theory has become a critical building block of modern knowledge. The key to accommodating both viewpoints, they show, is to disentangle belief from knowledge. A student does not need to believe in evolution in order to understand its tenets and evidence, and in this way can be fully literate in modern scientific thought and still maintain contrary religious or cultural views. Altogether, Laats and Siegel offer the kind of level-headed analysis that is crucial to finding a way out of our culture-war deadlock.

Prior to the First World War, more people learned of evolutionary theory from the voluminous writings of Charles Darwin’s foremost champion in Germany, Ernst Haeckel (1834–1919), than from any other source, including the writings of Darwin himself. But, with detractors ranging from paleontologist Stephen Jay Gould to modern-day creationists and advocates of intelligent design, Haeckel is better known as a divisive figure than as a pioneering biologist. Robert J. Richards’s intellectual biography rehabilitates Haeckel, providing the most accurate measure of his science and art yet written, as well as a moving account of Haeckel’s eventful life.

In Trying Biology, Adam R. Shapiro convincingly dispels many conventional assumptions about the 1925 Scopes “monkey” trial. Most view it as an event driven primarily by a conflict between science and religion. Countering this, Shapiro shows the importance of timing: the Scopes trial occurred at a crucial moment in the history of biology textbook publishing, education reform in Tennessee, and progressive school reform across the country. He places the trial in this broad context—alongside American Protestant antievolution sentiment—and in doing so sheds new light on the trial and the historical relationship of science and religion in America.

For the first time we see how religious objections to evolution became a prevailing concern to the American textbook industry even before the Scopes trial began. Shapiro explores both the development of biology textbooks leading up to the trial and the ways in which the textbook industry created new books and presented them as “responses” to the trial. Today, the controversy continues over textbook warning labels, making Shapiro’s study—particularly as it plays out in one of America’s most famous trials—an original contribution to a timely discussion.

Examining science as a rhetorical enterprise, this book seizes upon one scientific essay—"The Spandrels of San Marco and the Panglossian Paradigm: A Critique of the Adaptationist Programme"—and probes it from many angles. Written by prominent evolutionary theorists Stephen Jay Gould and Richard C. Lewontin and first published in the Proceedings of the Royal Society of London in 1979, the "Spandrels" article is both serious science and vivid prose. Applying methods inspired by Louis Althusser, Michel Foucault, Jacques Derrida, Ferdinand de Saussure, and others, the contributors employ a range of interpretive strategies. Stephen Jay Gould adds his own comments, and the full text of the essay "Spandrels" is reproduced as an appendix. Applying methods inspired by Louis Althusser, Michel Foucault, Jacques Derrida, Ferdinand de Saussure, and others, the contributors employ a range of interpretive strategies. Stephen Jay Gould adds his own comments, and the full text of the essay "Spandrels" is reproduced as an appendix.

Gonorrhea. Bed bugs. Weeds. Salamanders. People. All are evolving, some surprisingly rapidly, in response to our chemical age. In Unnatural Selection, Emily Monosson shows how our drugs, pesticides, and pollution are exerting intense selection pressure on all manner of species. And we humans might not like the result.

Monosson reveals that the very code of life is more fluid than once imagined. When our powerful chemicals put the pressure on to evolve or die, beneficial traits can sweep rapidly through a population. Species with explosive population growth—the bugs, bacteria, and weeds—tend to thrive, while bigger, slower-to-reproduce creatures, like ourselves, are more likely to succumb.

Monosson explores contemporary evolution in all its guises. She examines the species that we are actively trying to beat back, from agricultural pests to life-threatening bacteria, and those that are collateral damage—creatures struggling to adapt to a polluted world. Monosson also presents cutting-edge science on gene expression, showing how environmental stressors are leaving their mark on plants, animals, and possibly humans for generations to come.

Unnatural Selection is eye-opening and more than a little disquieting. But it also suggests how we might lessen our impact: manage pests without creating super bugs; protect individuals from disease without inviting epidemics; and benefit from technology without threatening the health of our children.

Originally published anonymously in 1844, Vestiges proved to be as controversial as its author expected. Integrating research in the burgeoning sciences of anthropology, geology, astronomy, biology, economics, and chemistry, it was the first attempt to connect the natural sciences to a history of creation. The author, whose identity was not revealed until 1884, was Robert Chambers, a leading Scottish writer and publisher. Vestiges reached a huge popular audience and was widely read by the social and intellectual elite. It sparked debate about natural law, setting the stage for the controversy over Darwin's Origin. In response to the surrounding debate and criticism, Chambers published Explanations: A Sequel, in which he offered a reasoned defense of his ideas about natural law, castigating what he saw as the narrowness of specialist science.

With a new introduction by James Secord, a bibliography of reviews, and a new index, this volume adds to Vestiges and Explanations Chambers's earliest works on cosmology, an essay on Darwin, and an autobiographical essay, raising important issues about the changing meanings of popular science and religion and the rise of secular ideologies in Western culture.

While viruses—the world’s most abundant biological entities—are not technically alive, they invade, replicate, and evolve within living cells. Michael Cordingley goes beyond our familiarity with infections to show how viruses spur evolutionary change in their hosts and shape global ecosystems, from ocean photosynthesis to drug-resistant bacteria.

Darwin is credited with discovering evolution through natural selection, but Alfred Russel Wallace saw the same process at work in nature and elaborated the same theory. Dispelling misperceptions of Wallace as a secondary figure, James Costa reveals the two naturalists as equals in advancing one of the greatest scientific discoveries of all time.

In tracing the history of Darwin’s accomplishment and the trajectory of evolutionary theory during the late nineteenth and early twentieth centuries, most scholars agree that Darwin introduced blind mechanism into biology, thus banishing moral values from the understanding of nature. According to the standard interpretation, the principle of survival of the fittest has rendered human behavior, including moral behavior, ultimately selfish. Few doubt that Darwinian theory, especially as construed by the master’s German disciple, Ernst Haeckel, inspired Hitler and led to Nazi atrocities.

In this collection of essays, Robert J. Richards argues that this orthodox view is wrongheaded. A close historical examination reveals that Darwin, in more traditional fashion, constructed nature with a moral spine and provided it with a goal: man as a moral creature. The book takes up many other topics—including the character of Darwin’s chief principles of natural selection and divergence, his dispute with Alfred Russel Wallace over man’s big brain, the role of language in human development, his relationship to Herbert Spencer, how much his views had in common with Haeckel’s, and the general problem of progress in evolution. Moreover, Richards takes a forceful stand on the timely issue of whether Darwin is to blame for Hitler’s atrocities. Was Hitler a Darwinian? is intellectual history at its boldest.

Why Evolution Works (and Creationism Fails) is an impassioned argument in favor of science—primarily the theory of evolution—and against creationism. Why impassioned? Should not scientists be dispassionate in their work? “Perhaps,” write the authors, “but it is impossible to remain neutral when our most successful scientific theories are under attack, for religious and other reasons, by laypeople and even some scientists who willfully distort scientific findings and use them for their own purposes.”

Focusing on what other books omit, how science works and how pseudoscience works, Matt Young and Paul K. Strode demonstrate the futility of “scientific” creationism. They debunk the notion of intelligent design and other arguments that show evolution could not have produced life in its present form.

Concluding with a frank discussion of science and religion, Why Evolution Works (and Creationism Fails) argues that science by no means excludes religion, though it ought tocast doubt on certain religious claims that are contrary to known scientific fact.

"I'm an evolutionary biologist and a Christian," states Stanford professor Joan Roughgarden at the outset of her groundbreaking new book, Evolution and Christian Faith: Reflections of an Evolutionary Biologist. From that perspective, she offers an elegant, deeply satisfying reconciliation of the theory of evolution and the wisdom of the Bible.

Perhaps only someone with Roughgarden's unique academic standing could examine so well controversial issues such as the teaching of intelligent design in public schools, or the potential flaws in Darwin's theory of evolution. Certainly Roughgarden is uniquely suited to reference both the minutiae of scientific processes and the implication of Biblical verses. Whether the topic is mutation rates and lizards or the hidden meanings behind St. Paul's letters, Evolution and Christian Faith distils complex arguments into everyday understanding. Roughgarden has scoured the Bible and scanned the natural world, finding examples time and again, not of conflict, but of harmony.

The result is an accessible and intelligent context for a Christian vision of the world that embraces science. In the ongoing debates over creationism and evolution, Evolution and Christian Faith will be seen as a work of major significance, written for contemporary readers who wonder how-or if-they can embrace scientific advances while maintaining their traditional values.